Resistance training enhances muscular force due to a combination of neural plasticity and
muscle hypertrophy. It has been well documented that the increase in strength over the first …

Neuroplasticity refers to the brain's ability to undergo structural and functional adaptations in
response to experience, and this process is associated with learning, memory and …

Optimal strategies for enhancing strength and improving motor skills are vital in athletic
performance and clinical rehabilitation. Initial increases in strength and the acquisition of …

Abstract Santos, PDG, Vaz, JR, Correia, J, Neto, T, and Pezarat-Correia, P. Long-term
neurophysiological adaptations to strength training: a systematic review with cross-sectional …

Motor evoked potentials (MEP) and cervicomedullary evoked potentials (CMEP) may help
determine the corticospinal adaptations underlying chronic resistance training-induced …

There is a limited understanding of the neurological adaptations responsible for changes in
strength following shortening and lengthening resistance training and subsequent …

New Findings What is the central question of this study? Does sensory input from peripheral
mechanoreceptors determine the specific neural control of eccentric contractions? How …

Objective The increase in voluntary force of an untrained limb (ie Cross-education) after
unilateral resistance training (RT) is believed to be a consequence of cortical adaptations …

The purpose of this study was to investigate the effects of chronic resistance training on
corticospinal excitability and short intracortical inhibition of the biceps brachii. Eight chronic …

The aim of the present cross‐sectional study was to determine if chronic rock climbing and
climbing‐specific resistance training (RT) would modify the reticulospinal tract (RST) …